Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We investigated the effect of nitric oxide (NO) on the proliferation of microglial MG5 cells established from p53-deficient mice. Cells were treated with bacterial lipopolysaccharide and interferon-gamma, and expression of inducible NO synthase (iNOS) and p21/waf1, a cyclin-dependent kinase inhibitor protein which is a critical downstream effector of p53, was investigated by RNA blot and immunoblot analyses. iNOS mRNA was induced 2 h after treatment and increased with time up to 24 h. p21 mRNA was expressed at a low level in untreated cells and increased with a kinetics similar to that for iNOS mRNA. iNOS and p21 proteins were also induced. An NO donor SNAP induced p21 mRNA and protein. SNAP inhibited incorporation of [(3)H]thymidine in MG5 cells in a dose-dependent manner. 8-Bromo-cGMP neither induced p21 mRNA nor inhibited [(3)H]thymidine incorporation. These results suggest that NO inhibits the proliferation of MG5 cells by induction of p21, which occurs independent of p53 and cGMP.
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PMID:Nitric oxide inhibits the proliferation of murine microglial MG5 cells by a mechanism involving p21 but independent of p53 and cyclic guanosine monophosphate. 1158 74

Excessive nitric oxide (NO) has been implicated in neurotoxicity after stresses such as ischemia. NO toxicity is generally thought to be mediated by the DNA damage-p53 pathway or mitochondrial dysfunction. We investigated the mechanism of NO toxicity by using murine microglial MG5 cells established from p53-deficient mice. When MG5 cells were exposed to bacterial lipopolysaccharide plus interferon-gamma, mRNA and protein for inducible NO synthase (iNOS) were markedly induced, and apoptosis occurred. Under these conditions, we found that mRNA and protein for CHOP/GADD153, a C/EBP family transcription factor which is involved in endoplasmic reticulum (ER) stress-induced apoptosis, are induced. iNOS mRNA was induced 2 h after treatment, whereas CHOP mRNA began to increase at 6 h with a time lag. CHOP mRNA was also induced by NO donors S-nitroso-N-acetyl-DL-penicillamine (SNAP) or NOC18, or a peroxynitrite generator 3-(4-morpholinyl)-sydnonimine hydrochloride (SIN-1). Bip/GRP78, an ER chaperone which is known to be induced by ER stress, was also induced by SNAP or SIN-1, indicating that NO causes ER stress. These results suggest that NO-induced apoptosis in MG5 cells occurs through the ER stress pathway involving CHOP, but is independent of p53.
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PMID:Induction of CHOP and apoptosis by nitric oxide in p53-deficient microglial cells. 1159 87

Based on previous findings of increased nitric oxide synthase (NOS) expression in human gliomas (4), we hypothesized that peroxynitrite, a highly reactive metabolite of nitric oxide (NO) and superoxide (O(*-)(2)), might be increased in these tumors in vivo. Here we demonstrate that nitrotyrosine (a footprint of peroxynitrite protein modification) is present in human malignant gliomas. Furthermore, we show that p53, a key tumor suppressor protein, has evidence of peroxynitrite-mediated modifications in gliomas in vivo. Experiments in vitro demonstrate that peroxynitrite treatment of recombinant wild-type p53 at physiological concentrations results in formation of higher molecular weight aggregates, tyrosine nitration, and loss of specific DNA binding. Peroxynitrite treatment of human glioma cell lysates similarly resulted in selective tyrosine nitration of p53 and was also associated with loss of p53 DNA binding ability. These data indicate that tyrosine nitration of proteins occurs in human gliomas in vivo, that p53 may be a target of peroxynitrite in these tumors, and that physiological concentrations of peroxynitrite can result in a loss of p53 DNA binding ability in vitro. These findings raise the possibility that peroxynitrite may contribute to loss of wild-type p53 functional activity in gliomas by posttranslational protein modifications.
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PMID:Evidence for peroxynitrite-mediated modifications to p53 in human gliomas: possible functional consequences. 1159 30

Several in vitro studies have shown that nitric oxide (NO) produced by NO synthase (NOS), such as inducible NOS (iNOS) play an important role in tumor biology. We immunohistochemically examined the expression of iNOS and p53 proteins in patients with transitional cell carcinoma (TCC) of the urinary tract, including adjacent dysplastic lesions to determine the significance of the tumor behavior. Of total 94 tumors, in the present study, 41 (43.6%) tumors exhibited homogeneous immunostaining (diffuse strong positivity in tumor cells, >60%) and 53 (56.4%) tumors heterogeneous staining (variable positivity in tumor cells, 20-60%). No TCCs exhibited negative iNOS immunostaining was found. Thirty (31.9%) of 94 TCCs were positive with anti-p53 antibody, including 23 of homogeneous and 7 of heterogeneous staining. Of 23 TCCs with homogeneous p53 immunostaining, 11 tumors exhibited homogeneous iNOS immunoreaction. In the present study, dysplastic lesions adjacent to carcinomas were detected in 64 cases including 36 TCCs with homogeneous iNOS expression. All dysplastic lesions adjacent to the 36 TCCs with homogeneous iNOS immunostaining exhibited homogeneous iNOS immunostaining. No significant association between iNOS immunoreactivity and any clinicopathological factors as well as p53 immuno-reactivity were found. These in vivo findings provide evidence for frequent iNOS protein expression in TCC. In addition, our observations indicate that overexpression of iNOS expression may be one of the early events in the carcinogenesis of TCC.
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PMID:Immunohistochemical findings of nitric oxide synthase expression in urothelial transitional cell carcinoma including dysplasia. 1160 48

Haemopoietic tissues exposed to ionizing radiation are shown to exhibit increased macrophage activation, defined by ultrastructural characteristics and increased lysosomal and nitric oxide synthase enzyme activities. Macrophage activation post-irradiation was also associated with enhanced respiratory burst activities and an unexpected neutrophil infiltration. Examination of p53-null mice demonstrated that macrophage activation and neutrophil infiltration were not direct effects of irradiation, but were a consequence of the recognition and clearance of radiation-induced apoptotic cells. Increased phagocytic cell activity was maintained after apoptotic bodies had been removed. These findings demonstrate that, contrary to expectation, recognition and clearance of apoptotic cells after exposure to radiation produces both a persistent macrophage activation and an inflammatory-type response. We also demonstrate a complexity of macrophage activation following radiation that is genotype dependent, indicating that the in vivo macrophage responses to radiation damage are genetically modified processes. These short-term responses of macrophages to radiation-induced apoptosis and their genetic modification are likely to be important determinants of the longer-term consequences of radiation exposure. Furthermore, in addition to any effects attributable to immediate radiation-induced damage, our findings provide a mechanism for the production of damage via a 'bystander' effect which may contribute to radiation-induced genomic instability and leukaemogenesis.
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PMID:Inflammatory-type responses after exposure to ionizing radiation in vivo: a mechanism for radiation-induced bystander effects? 1170 32

There is currently intense interest in the development of gene therapy for cardiovascular disease. The stimulation of therapeutic angiogenesis for ischemic heart disease has been one of the areas of greatest promise. Encouraging results have been obtained with the angiogenic cytokines vascular endothelial growth factor (VEGF) and basic fibroblast growth factor in animal models, leading to clinical trials in ischemic heart disease. VEGF also has therapeutic potential in a second area of cardiovascular gene therapy, the enhancement of arterioprotective endothelial functions to prevent postangioplasty restenosis and bypass graft arteriopathy. The endothelial cell growth and survival functions of VEGF promote endothelial regeneration, whereas VEGF-induced endothelial production of NO and prostacyclin inhibits vascular smooth muscle cell proliferation. Inhibition of neointimal hyperplasia may also be achieved by gene transfer of endothelial NO synthase (eNOS), PGI synthase, or cell cycle regulators (retinoblastoma, cyclin or cyclin-dependent kinase inhibitors, p53, growth arrest homeobox gene, fas ligand) or antisense oligonucleotides to c-myb, c-myc, proliferating cell nuclear antigen, and transcription factors such as nuclear factor kappaB and E2F. An improved understanding of etiologically complex pathologies involving the interplay of genes and the environment, such as atherosclerosis and systemic hypertension, has led to the identification of new targets for gene therapy, with the potential to alleviate inherited genetic defects such as familial hypercholesterolemia. The use of vasodilator gene overexpression and antisense knockdown of vasoconstrictors to reduce blood pressure in animal models of systemic and pulmonary hypertension offers the prospect of gene therapy for human hypertensive disease. The renin-angiotensin system has been the target of choice for antihypertensive strategies because of its wide distribution and additional effects on fibrinolytic and oxidative stress pathways. Gene therapy in cardiovascular disease has an exciting future but remains at an early stage. Further developments in gene transfer vector technology and the identification of additional target genes will be required before its full therapeutic potential can be realized.
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PMID:Gene therapy for cardiovascular disease: a case for cautious optimism. 1171 25

Nitric oxide (NO) is a potent bioactive molecule produced in the presence of NO synthase (NOS) enzymes, which mediates numerous physiological functions under constitutive conditions. Sustained overproduction of NO (and NO-reaction products), typically under inductive conditions, can lead to cell cycle arrest and cellular apoptosis. Furthermore, carcinogenesis may result from mutational events following NO-mediated DNA damage and hindrance to DNA repair (e.g., mutation of tumour-suppressor gene p53). In a majority of human and experimental tumours, tumour-derived NO appears to stimulate tumour progression; however, for a minority of tumours, the opposite has been reported. This apparent discrepancy may be explained by differential susceptibility of tumour cells to NO-mediated cytostasis or apoptosis, and the emergence of NO-resistant and NO-dependent clones. NO-resistance may be mediated by p53 inactivation, and upregulation of cyclo-oxygenase-2 and heat shock protein 70 (HSP70). In a murine mammary tumour model, tumour-derived NO promoted tumour growth and metastasis by enhancing invasive, angiogenic, and migratory capacities of tumour cells. Invasion stimulation followed the altered balance of matrix metalloproteases and their inhibitors; migration stimulation followed activation of guanylate cyclase and MAP kinase pathways. Selective NOS inhibitors may have a therapeutic role in certain cancers.
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PMID:Role of nitric oxide in tumour progression with special reference to a murine breast cancer model. 1193 55

In this study, we evaluated the molecular mechanisms involved in morphine-induced macrophage apoptosis. Both morphine and TGF-beta promoted P38 mitogen-activated protein kinase (MAPK) phosphorylation, and this phosphorylation was inhibited by SB 202190 as well as by SB 203580. Anti-TGF-beta Ab as well as naltrexone (an opiate receptor antagonist) inhibited morphine-induced macrophage P38 MAPK phosphorylation. Anti-TGF-beta Ab also attenuated morphine-induced p53 as well as inducible NO synthase expression; in contrast, N(G)-nitro-L-arginine methyl ester, an inhibitor of NO synthase, inhibited morphine-induced P38 MAPK phosphorylation and Bax expression. Morphine also enhanced the expression of both Fas and Fas ligand (FasL), whereas anti-FasL Ab prevented morphine-induced macrophage apoptosis. Moreover, naltrexone inhibited morphine-induced FasL expression. In addition, macrophages either deficient in FasL or lacking p53 showed resistance to the effect of morphine. Inhibitors of both caspase-8 and caspase-9 partially prevented the apoptotic effect of morphine on macrophages. In addition, caspase-3 inhibitor prevented morphine-induced macrophage apoptosis. These findings suggest that morphine-induced macrophage apoptosis proceeds through opiate receptors via P38 MAPK phosphorylation. Both TGF-beta and inducible NO synthase play an important role in morphine-induced downstream signaling, which seems to activate proteins involved in both extrinsic (Fas and FasL) and intrinsic (p53 and Bax) cell death pathways.
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PMID:Role of p38 mitogen-activated protein kinase phosphorylation and Fas-Fas ligand interaction in morphine-induced macrophage apoptosis. 1193 60

Both L-arginine supplementation and deprivation influence cell proliferation. The effect of high doses on tumours is determined by the optical configuration: L-arginine is stimulatory, D-arginine inhibitory. Arginine-rich hexapeptides inhibited tumour growth. Deprivation of L-arginine from cell cultures enhanced apoptosis. The pro-apoptotic action of NO synthase inhibitors, like NG-monomethyl-L-arginine, is manifested through inhibition of the arginase pathway. NG-hydroxymethyl-L-arginines caused apoptosis in cell cultures and inhibited the growth of various transplantable mouse tumours. These diverse biological activities become manifest through formaldehyde (HCHO) because guanidine group of L-arginine in free and bound form can react rapidly with endogenous HCHO, forming NG-hydroxymethylated derivatives. L-arginine is a HCHO capturer, carrier and donor molecule in biological systems. The role of formaldehyde generated during metabolism of NG-methylated and hydroxymethylated arginines in cell proliferation and death can be shown. The supposedly anti-apoptotic homozygous Arg 72-p53 genotype may increase susceptibility of some cancers. The diverse biological effects of L-arginine and its methylated derivatives call for further careful studies on their possible application in chemoprevention and cancer therapy.
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PMID:Role of arginine and its methylated derivatives in cancer biology and treatment. 1198 27

The neurotoxic damage caused by methamphetamine (METH) is characterized by nerve terminal destruction and/or degeneration of the dopaminergic and serotonergic systems in striatum and hippocampus. It has been hypothesized that intraneural dopamine (DA) redistribution from synaptic vesicles to cytoplasmic compartments produced by METH is an important factor for its neurotoxicity. The METH-induced redistribution of DA is thought to occur after an increased production of DA-based reactive oxygen species (ROS) (e.g., oxygen radicals and hydroxyl radicals) by auto-oxidation or enzymatic degradation, and METH-induced ROS produces an oxidative stress and depletion of energy stores. Furthermore, the glutamatergic system and nitric oxide (NO) may also contribute to METH-induced neurotoxicity. Recently, studies using several knockout strains of mice lacking the DA transporter, the monoamine vesicle transporter-2, c-fos, or neuronal NO synthase confirm a possible role of these factors in METH-induced neurotoxicity. Moreover, it has been proposed that METH causes the apoptosis and activation of cell-death-related genes. For example, METH-induced neurotoxicity is reduced in bcl-2-over expressing neural cell and p53 knockout mice and also induces the activation of caspase 3. Therefore in this review, we discuss the relationship between ROS formation, oxidative stress, and apoptosis in METH-induced neurotoxicity.
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PMID:[A recent trend in methamphetamine-induced neurotoxicity]. 1205 Aug 51


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